HomeSort by relevance Sort by last modified time
    Searched refs:Capacity (Results 151 - 175 of 306) sorted by null

1 2 3 4 5 67 8 91011>>

  /device/linaro/bootloader/edk2/MdeModulePkg/Bus/Sd/SdDxe/
SdDxe.c 187 UINT64 Capacity;
237 Capacity = MultU64x32 (MultU64x32 ((UINT64)CSize, CSizeMul), ReadBlLen);
242 Capacity = MultU64x32 ((UINT64)CSize, SIZE_512KB);
253 Device->BlockMedia.LastBlock = DivU64x32 (Capacity, Device->BlockMedia.BlockSize) - 1;
  /device/linaro/bootloader/edk2/MdePkg/Library/UefiDevicePathLib/
UefiDevicePathLib.h 48 UINTN Capacity;
  /external/v8/src/
transitions-inl.h 177 DCHECK(number_of_transitions <= Capacity(this));
transitions.h 164 static int Capacity(Object* raw_transitions);
  /frameworks/native/libs/vr/libpdx/private/pdx/rpc/
payload.h 68 std::size_t Capacity() const { return buffer_.capacity(); }
  /packages/apps/Test/connectivity/sl4n/rapidjson/include/rapidjson/
allocators.h 131 chunkHead_->capacity = size - sizeof(ChunkHeader);
155 //! Computes the total capacity of allocated memory chunks.
156 /*! \return total capacity in bytes.
158 size_t Capacity() const {
159 size_t capacity = 0; local
161 capacity += c->capacity;
162 return capacity;
181 if (chunkHead_ == 0 || chunkHead_->size + size > chunkHead_->capacity)
205 if (chunkHead_->size + increment <= chunkHead_->capacity) {
247 size_t capacity; \/\/!< Capacity of the chunk in bytes (excluding the header itself). member in struct:MemoryPoolAllocator::ChunkHeader
    [all...]
  /external/libchrome/base/trace_event/
trace_buffer.cc 78 size_t Capacity() const override {
195 size_t Capacity() const override {
293 const size_t num_unused_trace_events = capacity() - size();
  /external/swiftshader/third_party/subzero/src/
IceDefs.h 252 void reserve(VariableDeclarationArray::size_type Capacity) {
253 Globals.reserve(Capacity);
  /prebuilts/clang/host/darwin-x86/clang-4393122/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/darwin-x86/clang-4479392/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/darwin-x86/clang-4579689/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/darwin-x86/clang-4630689/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/darwin-x86/clang-4639204/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/darwin-x86/clang-4691093/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/linux-x86/clang-4393122/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/linux-x86/clang-4479392/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/linux-x86/clang-4579689/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/linux-x86/clang-4630689/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/linux-x86/clang-4639204/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /prebuilts/clang/host/linux-x86/clang-4691093/include/llvm/ADT/
BitVector.h 140 size_t Capacity = NumBitWords(s);
141 Bits = allocate(Capacity);
154 size_t Capacity = NumBitWords(RHS.size());
155 Bits = allocate(Capacity);
156 std::memcpy(Bits.data(), RHS.Bits.data(), Capacity * sizeof(BitWord));
366 /// clear - Removes all bits from the bitvector. Does not change capacity.
716 assert(NewCapacity > 0 && "negative capacity?");
  /art/runtime/gc/space/
space_test.h 128 size_t capacity, uint8_t* requested_begin);
326 size_t capacity = 16 * MB; local
327 MallocSpace* space(create_space("test", initial_size, growth_limit, capacity, nullptr));
331 EXPECT_EQ(space->Capacity(), growth_limit);
332 EXPECT_EQ(space->NonGrowthLimitCapacity(), capacity);
343 EXPECT_EQ(space->Capacity(), capacity);
344 SizeFootPrintGrowthLimitAndTrimBody(space, object_size, 3, capacity);
  /device/linaro/bootloader/edk2/IntelFrameworkModulePkg/Bus/Pci/IdeBusDxe/
Ata.c 29 supports ATA/ATAPI6 48bit addressing, ie support >120G capacity
37 capacity is below 120G, 48bit addressing is not needed
52 EFI_LBA Capacity;
76 // 48 bit address feature set is supported, get maximum capacity
78 Capacity = Atapi6IdentifyStruct->AtaData.maximum_lba_for_48bit_addressing[0];
84 Capacity |= LShiftU64 (TmpLba, 16 * Index);
87 if (Capacity > MAX_28BIT_ADDRESSING_CAPACITY) {
89 // Capacity exceeds 120GB. 48-bit addressing is really needed
103 IdeDev->BlkIo.Media->LastBlock = Capacity - 1;
264 including device type, media block size, media capacity, and etc.
    [all...]
  /art/runtime/gc/accounting/
atomic_stack.h 65 // Capacity is how many elements we can store in the stack.
66 static AtomicStack* Create(const std::string& name, size_t growth_limit, size_t capacity) {
67 std::unique_ptr<AtomicStack> mark_stack(new AtomicStack(name, growth_limit, capacity));
184 size_t Capacity() const {
221 AtomicStack(const std::string& name, size_t growth_limit, size_t capacity)
227 capacity_(capacity),
  /device/linaro/bootloader/edk2/NetworkPkg/IpSecDxe/
IpSecConfigImpl.h 65 UINTN Capacity;
    [all...]
  /external/webrtc/webrtc/base/
bytebuffer.cc 187 if (Length() + len > Capacity())

Completed in 871 milliseconds

1 2 3 4 5 67 8 91011>>